Signaling compartment at the ciliary tip is formed and maintained by intraflagellar transport and functions as sensitive salt detector

Abstract

AbstractPrimary cilia are ubiquitous antenna-like organelles that mediate cellular signaling and represent hotspots for human diseases termed ciliopathies. How signaling subcompartments are established within the microtubule-based organelle, and for example support Hedgehog or cGMP signal transduction pathways, remains a central question. Here we show that a C. elegans salt-sensing receptor type guanylate cyclase, GCY-22, accumulates at a high concentration within the distal region of the cilium. This receptor uses DAF-25 (Ankmy2 in mammals) to cross the transition zone (TZ) membrane diffusion barrier in the proximal-most region of the ciliary axoneme. Targeting of GCY-22 to the ciliary tip is dynamic, requiring the cargo-mobilizing intraflagellar transport (IFT) system. Disruption of transit across the TZ barrier or IFT trafficking causes GCY-22 protein mislocalization and defects in the formation, maintenance, and function of the ciliary tip compartment required for chemotaxis to low NaCl concentrations. Together, our findings reveal how a previously undescribed cilium tip cGMP signaling compartment is established and contributes to the physiological function of a primary cilium.